Expression of neutral endopeptidase (enkephalinase) in heterologous COS-1 cells. Characterization of the recombinant enzyme and evidence for a glutamic acid residue at the active site

Neutral endopeptidase (EC 3.4.24.11) is an integral membrane protein found in the plasma membrane of many cell types. The cDNA coding for the complete primary structure of neutral endopeptidase has recently been cloned and sequenced (Devault, A. Lazure, C., Nault, C., Le Moual, H., Seidah, N. G., Chretien, M., Kahn, P., Powell, J., Mallet, J., Beaumont, A., Roques, B. P., Crine, P., and Boileau, G. (1987) EMBO J. 6, 1317-1322). Comparison of the sequence of neutral endopeptidase with that of thermolysin, a bacterial Zn-metalloendopeptidase, suggests that Glu-584 in neutral endopeptidase probably corresponds to Glu-143 in thermolysin, which is an essential amino acid involved in catalysis. To test directly the importance of Glu-584 in the catalytic activity of neutral endopeptidase by site-directed metagenesis, we have constructed an expression vector in which the rabbit kidney cDNA encoding the entire neutral endopeptidase sequence is introduced downstream from the SV40 virus early promotor. After transfection in COS-1 monkey kidney cells, this vector was found to promote the expression of a protein with biochemical and catalytic properties identical to kidney neutral endopeptidase. Oligonucleotide-directed mutagenesis of Glu-584 to either valine or aspartic acid completely abolished the enzymatic activity of the recombinant protein without changing its affinity for the substrate-related tritiated inhibitor [3H]N-[(2R,2S)-3-hydroxyamino-carbonyl-2-benzyl-1-oxopropyl]-glycine. This observation clearly identifies Glu-584 as one of the important residues responsible for the catalytic activity of the enzyme.     

The hydrolysis of endothelins by neutral endopeptidase 24.11 (enkephalinase)

Endothelins 1-3 are a family of 21-amino acid peptides whose structure consists of two rings formed by intra-chain disulfide bonds and a linear "COOH-terminal tail." These peptides were originally described on the basis of their potent vasoconstrictor activity. The hydrolytic inactivation of endothelin action has recently been implicated to be attributed, at least in part, to the enzyme neutral endopeptidase 24.11 (Scicli, A. G., Vijayaraghavan, J., Hersh, L., and Carretero, O. (1989) Hypertension 14, 353). The kinetic properties and mode of hydrolysis of the endothelins by this enzyme are reported in this study. The Km for endothelins 1 and 3 hydrolysis is approximately 2 microM while endothelin2 exhibits a 5-fold higher Km. Endothelins 1 and 2 exhibit similar Vmax values while endothelin3 is hydrolyzed considerably more slowly. The initial cleavage site in endothelin1 is at the Ser5-Leu6 bond located within one of the cyclic structures. Thermolysin, a bacterial neutral endopeptidase with a similar substrate specificity to neutral endopeptidase 24.11 initially cleaves endothelin1 between His16-Leu17 which lies within the COOH-terminal linear "tail" portion of the molecule. The cleavage of endothelins 2 and 3 by neutral endopeptidase 24.11 differs from that observed with endothelin1 in that cleavage of these endothelins occurs at Asp18-Ile19 within the linear COOH-terminal tail structure. These results demonstrate that the endothelins are good substrates for neutral endopeptidase 24.11 and suggest that their mode of cleavage is dependent upon both amino acid sequence as well as peptide conformation.     

Effect of neonatal handling on brain enkephalin-degrading peptidase activities.

Neonatal handling decreases neutral endopeptidase 24.11 activity in the amygdala. However, this procedure does not affect aminopeptidase activities in any of the brain areas studied. Neonatal handling has been one of the most commonly used strategies to study the plasticity of the nervous system. The crucial role of the opioids in the control of different aspects of behaviour and development has been well documented. Regarding this subject, the endogenous opioid system might mediate some of the effects induced by neonatal handling. In this work, we have studied the effects of neonatal handling on several enkephalin-degrading peptidases, including soluble and membrane-bound aminopeptidases (puromycin-sensitive and -insensitive) and neutral endopeptidase 24.11 in different rat brain areas. Tyrosine aminopeptidase activities were measured fluorimetrically using tyrosine-beta-naphthylamide as substrate and puromycin as selective inhibitor of one of the membrane-enzymes. Dansyl-D-Ala-Gly-Phe(pNO2)-Gly was the fluorogenic substrate for neutral endopeptidase. The reduced neutral endopeptidase 24.11 activity in the amygdala of neonatal handled rats could reduce enkephalin catabolism in this area and it could be responsible for some of the effects induced by neonatal handling.     

Fusion of a cleavable signal peptide to the ectodomain of neutral endopeptidase (EC 3.4.24.11) results in the secretion of an active enzyme in COS-1 cells

Neutral endopeptidase (EC 3.4.24.11) is an integral membrane protein found at the plasma membrane of many cell types and is especially abundant at the apical "brush border" membrane of the kidney proximal tubules. The enzyme consists of a short amino-terminal cytosolic domain of 27 amino acids, a single hydrophobic sequence which is believed to be responsible for anchoring the enzyme in the plasma membrane, and a large extracellular domain containing the active site. This model is consistent with the proposed function of neutral endopeptidase, which is believed to play an important role in the inactivation of small regulatory peptides at the cell surface. Site-directed mutagenesis has allowed the identification of 1 glutamic acid and 2 histidine residues essential for catalysis. All are located near the COOH terminus of the protein. We do not know, however, whether other segments of the protein are involved in the structure of the active site. The exact role of the cytosolic and transmembrane domains is also unknown. In this report, we have induced the secretion of a soluble form of recombinant neutral endopeptidase in COS-1 cells by fusing in-frame, the cDNA encoding the signal peptide of a secreted protein (pro-opiomelanocortin) to the cDNA sequences of the complete ectodomain of neutral endopeptidase. Characterization of the secreted recombinant protein indicated that it has the same catalytic properties as the membrane-bound recombinant enzyme or as the enzyme extracted from kidney brush border membranes. Thus the extracellular domain alone is sufficient for conferring full catalytic activity to neutral endopeptidase.     

Amino acid sequence of rabbit kidney neutral endopeptidase 24.11 (enkephalinase) deduced from a complementary DNA.

Neutral endopeptidase (EC 3.4.24.11) is a major constituent of kidney brush border membranes. It is also present in the brain where it has been shown to be involved in the inactivation of opioid peptides, methionine- and leucine-enkephalins. For this reason this enzyme is often called 'enkephalinase'. In order to characterize the primary structure of the enzyme, oligonucleotide probes were designed from partial amino acid sequences and used to isolate clones from kidney cDNA libraries. Sequencing of the cDNA inserts revealed the complete primary structure of the enzyme. Neutral endopeptidase consists of 750 amino acids. It contains a short N-terminal cytoplasmic domain (27 amino acids), a single membrane-spanning segment (23 amino acids) and an extracellular domain that comprises most of the protein mass. The comparison of the primary structure of neutral endopeptidase with that of thermolysin, a bacterial Zn-metallopeptidase, indicates that most of the amino acid residues involved in Zn coordination and catalytic activity in thermolysin are found within highly honmologous sequences in neutral endopeptidase.     

High concentration of neutral endopeptidase (enkephalinase E.C. 3.4.24.11) in a malignant tumor: rat hepatoma 3924A

The activity of the membrane-bound neutral endopeptidase 24.11 was low in the normal liver (21 +/- 3 pmol/h/mg protein, mean +/- SE) but it increased 56-fold in rapidly-growing rat hepatoma 3924A. The identity of the enzyme in the tumor was established by immunoprecipitation and by using a specific inhibitor of neutral endopeptidase. The endopeptidase concentration in the differentiating and regenerating liver was lower than in normal tissue, 39 and 8% of the corresponding control. The activity of a plasma membrane marker enzyme carboxypeptidase M in the normal liver was 1.0 +/- 0.2 nmol/h/mg protein, it increased about 2-fold in the rapidly-growing hepatoma and in the differentiating liver, but was unchanged in regenerating liver. The function of the strikingly increased neutral endopeptidase activity in the rapidly growing hepatoma may relate to activation of autocrine or exocellular growth factors or to inactivation of cell proliferation-inhibitory factors. Such a biochemical change should confer selective advantages to the cancer cells.     

Synthesis and evaluation of heteroarylalanine diacids as potent and selective neutral endopeptidase inhibitors

Heteroarylalanine derivatives 4 were designed as potential inhibitors of neutral endopeptidase (NEP EC 3.4.24.11). Selectivity over other zinc metalloproteinases was explored through occupation of the S2′ subsite within NEP. Structural optimisation led to the identification of 5-phenyl oxazole 4f, a potent and selective NEP inhibitor. A crystal structure of the inhibitor bound complex is reported.     

Phosphoramidon potentiates the bronchoconstriction induced by inhaled bombesin in guinea pigs

The effect of the neutral endopeptidase inhibitor, phosphoramidon, on the bronchoconstriction induced by aerosolized bombesin in the guinea pig was investigated. Administered by aerosol for 1 min, bombesin (0.01 or 0.1 mg/ml) induced a dose-dependent increase in pulmonary inflation pressure. Pretreatment of the guinea-pigs with phosphoramidon (0.1 mM), administered by aerosol for 15 min, 15 min prior to challenge, markedly potentiated the increase in pulmonary inflation pressure induced by bombesin (0.01 mg/ml) and substance P (0.1 mg/ml). This result suggests a local hydrolysis of bombesin by airway neutral endopeptidase reducing the activity of this peptide on smooth muscle.     

Primary structure homologies between two zinc metallopeptidases, the neutral endopeptidase 24.11 ("enkephalinase") and thermolysin, through clustering analysis

Analogies in the sequences of two related zinc metallopeptidases, the bacterial thermolysin (316 amino acids) and the recently cloned neutral endopeptidase 24.11 ("enkephalinase", 749 amino acids), have been demonstrated by a hydrophobic cluster analysis method derived from the Lim theory. Two sequence alignments are proposed for the entire primary structure of thermolysin and the C-terminal part of endopeptidase 24.11. Except for an arginine residue, all the amino acids involved in the active site of thermolysin have been retrieved in both models of endopeptidase 24.11 within conserved clustered structures. The first model is characterized by a deletion of the Ca2+-binding coil present in thermolysin and the second by replacement of this coil by two alpha-helices. In both models an Arg residue can be located in the active site of the neutral endopeptidase.     

N-bromoacetyl-D-leucylglycine. An affinity label for neutral endopeptidase 24.11

Neutral endopeptidase 24.11 is rapidly inactivated by N-bromoacetyl-D-leucylglycine in a reaction which follows first-order kinetics at pH 8 and 37 degrees C. The concentration dependence of inactivation revealed saturation kinetics with an apparent Ki of 10 mM and kappa inact of 0.4 min-1 at saturating inhibitor concentration. Enzyme can be protected from inactivation by either the substrate Leu5-enkephalin or the competitive inhibitors Phe-Gly or Phe-Ala. Inactivation of enzyme by N-bromo-[14C]acetyl-D-leucylglycine proceeds with the incorporation of a stoichiometric amount of labeled inhibitor. Tryptic digestion of the radioactively labeled enzyme followed by high performance liquid chromatography allowed the isolation of a modified peptide with the sequence T-D-V-H-S-P-G-N-F-R in which histidine (His704) is the modified residue. Site-directed mutagenesis was used to generate a mutant form of the enzyme in which histidine 704 was converted to a glutamine residue. This mutant enzyme retained less than 0.1% of the activity of the native enzyme. These results demonstrate that His704 is at the active site of neutral endopeptidase 24.11 and suggest a catalytic role for this residue.     

Degradation of streptomyces metalloprotease inhibitor (SMPI) by neutral protease from Bacillus subtilis var. amylosacchariticus.

The zinc-containing neutral endopeptidase (neutral protease: BANP) from Bacillus subtilis var. amylosacchariticus was inhibited by the proteinaceous metalloprotease inhibitor isolated from Streptomyces nigrescens (SMPI). The degree of inhibition was, however, significantly less than that for thermolysin (TLN). During incubation of BANP with SMPI, the inhibitor was proteolytically degraded and inactivated. Analysis of the digestion products suggested that a minor diversity in their substrate specificities between TLN and BANP affects the sensitivity to the proteinaceous metalloprotease inhibitor, SMPI.     

Fluorogenic substrates for the enkephalin-degrading neutral endopeptidase (Enkephalinase)

Rat brain neutral endopeptidase ("Enkephalinase") was shown to hydrolyze a series of fluorogenic substrates of the general structure 2-aminobenzoyl-(amino acid)n- leucylalanylglycine -4- nitrobenzylamide . The hydrolysis of these substrates was competitively inhibited by Leu5-enkephalin, demonstrating that these are indeed substrates for the rat brain neutral endopeptidase. Cleavage of the fluorogenic substrates yielded leucylalanylglycine -4- nitrobenzylamide as a common product. In addition, a series of inhibitors previously shown to inhibit thermolysin-like enzymes inhibited the hydrolysis of both Leu5-enkephalin and the synthetic substrates. The results of this study (a) demonstrate that the enkephalin-degrading endopeptidase is similar in specificity to thermolysin, (b) provide a continuous sensitive assay system for the enzyme, and (c) point out the potential use of this substrate class for probing the specificity of the enzyme.     

Inhibition of neutral endopeptidase potentiates neurogenic inflammation in the rat trachea

The present study was performed to determine whether neurogenic inflammation in the rat trachea can be exaggerated by inhibiting neutral endopeptidase, an enzyme that degrades tachykinins that are believed to mediate neurogenic inflammation. Neurogenic inflammation was produced by antidromic electrical stimulation of one vagus nerve (2.5 Hz, 1 ms, 5 V for 5 min) in the presence of atropine or by an intravenous injection of capsaicin (100 micrograms/kg). Neutrophils that adhered to the endothelium of venules were visualized and counted in tracheal whole mounts that were stained by a histochemical reaction for myeloperoxidase. Neural inflammation increased the number of adherent neutrophils. Pretreatment with the neutral endopeptidase inhibitor phosphoramidon (1.0 or 2.5 mg/kg iv) increased neutrophil adhesion induced by neural inflammation. As assessed by the amount of extravasation of Monastral blue pigment, neural inflammation also increased vascular permeability, and this change was potentiated by phosphoramidon. These results are consistent with the concept that neuropeptides released from sensory nerves in the tracheal mucosa cause neutrophils to adhere to venules and increase vascular permeability and that these effects are modulated by neutral endopeptidase.     

Epithelium removal alters responsiveness of guinea pig trachea to substance P

Removal of epithelium from mammalian tracheae has been shown to enhance responsiveness to a variety of contractile and relaxant agents. One of the most dramatic shifts reported has been for guinea pig tracheal tissue denuded of epithelium and treated with substance P. We investigated whether this shift in responsiveness was because of 1) removal of an epithelium-associated enzyme, neutral endopeptidase, which degrades substance P and 2) loss of an epithelium-derived noncyclooxygenase relaxant factor. Using a muscle bath preparation we performed concentration-response curves with substance P and acetylcholine on indomethacin-treated tissues with and without intact epithelium and with and without pretreatment with the neutral endopeptidase inhibitor, phosphoramidon. Epithelium removal potentiated the mean agonist concentration calculated to causes 30% of the maximal contractile response by 148-fold for substance P and by 7-fold for acetylcholine. Phosphoramidon potentiated the contractile response to substance P, but not to acetylcholine, by both the epithelium-intact and denuded tissues (P less than 0.05). However, the degree of enhancement by phosphoramidon was much greater in the intact tissues. With phosphoramidon treatment, therefore, the difference in responsiveness to substance P between the intact and denuded tissues was reduced from 148-fold to 18-fold. This effect of phosphoramidon suggests that the hyperresponsiveness to substance P of epithelium-denuded airway tissue is largely because of removal of neutral endopeptidase. Because all tissues were treated with indomethacin, the leftward shifts in substance P and in acetylcholine responsiveness induced by epithelium removal further suggest that an epithelium-derived noncyclooxygenase factor other than neutral endopeptidase also modulates the contractile response to substance P and to acetylcholine.     

Neuropeptide-degrading endopeptidase activity of locust (Schistocerca gregaria) synaptic membranes.

Locust adipokinetic hormone (AKH, pGlu-Leu-Asn-Phe-Thr-Pro-Asn-Trp-Gly-Thr-NH2) was used as the substrate to measure neuropeptide-degrading endopeptidase activity in neutral membranes from ganglia of the locust Schistocerca gregaria. Initial hydrolysis of AKH at neural pH by peptidases of washed neural membranes generated pGlu-Leu-Asn and Phe-Thr-Pro-Asn-Trp-Gly-Thr-NH2 as primary metabolites, demonstrating that degradation was initiated by cleavage of the Asn-Phe bond. Amastatin protected the C-terminal fragment from further metabolism by aminopeptidase activity without inhibiting AKH degradation. The same fragments were generated on incubation of AKH with purified pig kidney endopeptidase 24.11, and enzyme known to cleave peptide bonds that involve the amino group of hydrophobic amino acids. Phosphoramidon (10 microM), a selective inhibitor of mammalian endopeptidase 24.11, partially inhibited the endopeptidase activity of locust neural membranes. This phosphoramidon-sensitive activity was shown to enriched in a synaptic membrane preparation with around 80% of the activity being inhibited by 10 microM-phosphoramidon (IC50 = 0.2 microM). The synaptic endopeptidase was also inhibited by 1 mM-EDTA, 1 mM-1,10-phenanthroline and 1 microM-thiorphan, and the activity was maximal between pH 7.3 and 8.0. Localization of the phosphoramidon-sensitive enzyme in synaptic membranes is consistent with a physiological role for this endopeptidase in the metabolism of insect peptides at the synapse.     

Neprilysin inhibits angiogenesis via proteolysis of fibroblast growth factor-2

Neprilysin is a cell surface peptidase that catalytically inactivates neuropeptide substrates and functions as a tumor suppressor via its enzymatic function and multiple protein-protein interactions. We investigated whether neutral endopeptidase could inhibit angiogenesis in vivo utilizing a murine corneal pocket angiogenesis model and found that it reduced fibroblast growth factor-2-induced angiogenesis by 85% (p < 0.01) but had no effect on that of vascular endothelial growth factor. Treatment with recombinant neprilysin, but not enzymatically inactive neprilysin, resulted in a slight increase in basic fibroblast growth factor electrophoretic mobility from proteolytic cleavage between amino acids Leu-135 and Gly-136, which was inhibited by the neutral endopeptidase inhibitor CGS24592 and heparin. Cleavage kinetics were rapid, comparable with that of other known neprilysin substrates. Functional studies involving neprilysin-expressing vascular endothelial cells demonstrated that neutral endopeptidase inhibition significantly enhanced fibroblast growth factor-mediated endothelial cell growth, capillary array formation, and signaling, whereas exogenous recombinant neprilysin inhibited signaling. Recombinant constructs confirmed that cleavage products neither promoted capillary array formation nor induced signaling. Moreover, mutation of the cleavage site resulted in concomitant loss of cleavage and increased the potency of fibroblast growth factor-2 to induce capillary array formation. These data indicate that neprilysin proteolytically inactivates fibroblast growth factor-2, resulting in negative regulation of angiogenesis.     

Specific cleavage of DNA at CG sites by Co(III) and Ni(II) desferal complexes.

Hydrolysis of endothelin 1 by rat kidney membranes was investigated using a reverse-phase HPLC and an automated gas-phase protein sequencer. Endothelin 1 was hydrolyzed into four major fragments which were detected by HPLC. Phosphoramidon, an inhibitor of neutral endopeptidase 24,11, almost completely suppressed the production of three fragments, but one fragment was not affected by the inhibitor. Analysis of N-terminal sequences of the degradation products revealed that the phosphoramidon-sensitive fragments were generated by cleavage at the Ser5-Leu6 bond of endothelin 1 that was identical with its cleavage site by purified rat endopeptidase 24,11, reported previously. The phosphoramidon-insensitive fragment was produced by cleavage at Leu17-Asp18, which was distinct from the sites by endopeptidase 24,11, but corresponded to that by a phosphoramidon-insensitive metallo-endopeptidase recently isolated from rat kidney membranes by us [(1992) Eur. J. Biochem. 204, 547-552]. Kinetic determination of endothelin 1 hydrolysis by the isolated enzyme yielded values of Km = 71.5 microM and kcat = 1.49 s-1, giving a ratio of kcat/Km = 2.08 x 10(4) s-1.M-1. The Km value was much higher and the kcat/Km value was much lower than those for rat endopeptidase 24,11 reported previously. Thus, endopeptidase 24,11 appears to hydrolyze endothelin 1 more efficiently than the isolated enzyme does. Both enzymes may play physiological roles in the metabolism of endothelin 1 by rat kidney membranes in vivo.     

Degradation of Streptomyces Metalloprotease Inhibitor (SMPI) by Neutral Protease from Bacillus suhtilis var. amylosacchariticus

The zinc-containing neutral endopeptidase (neutral protease: BANP) from Bacillus subtilis var. amylosacchariticus was inhibited by the proteinaceous metalloprotease inhibitor isolated from Streptomyces nigrescens (SMPI). The degree of inhibition was, however, significantly less than that for thermolysin (TLN). During incubation of BANP with SMPI, the inhibitor was proteolytically degraded and inactivated. Analysis of the digestion products suggested that a minor diversity in their substrate specificities between TLN and BANP affects the sensitivity to the proteinaceous metalloprotease inhibitor, SMPI.     

Lens neutral endopeptidase occurs in other bovine and human tissues.

Lens neutral endopeptidase (EC 3.4.24.5) was previously thought to be unique to the eye lens. We report here the finding of a neutral endopeptidase, in a variety of bovine and human tissues, which is very similar both biochemically and immunologically to the lens endopeptidase. SDS/polyacrylamide-gel electrophoresis of partially purified enzyme fractions from various bovine tissues shows the characteristic pattern of at least eight bands with Mr values ranging from 24,000 to 32,000 which was described for the bovine-lens neutral endopeptidase. The relative activity of the enzyme varies from tissue to tissue with lung having the highest activity. Partially purified enzyme fractions from these tissues cross-react with antiserum raised in rabbit against bovine lens endopeptidase showing apparent identity when examined side by side in Ouchterlony double-diffusion tests. The human enzyme also cross-reacts with the antiserum but when tested by double-diffusion against the bovine enzyme the precipitin lines show spurring at the joining edges indicating a structural difference between the human and the bovine enzymes. It was also found by Western blot experiments, after denaturing polyacrylamide-gel electrophoresis of the enzyme, that the polypeptide components of the human and bovine enzymes show somewhat different banding patterns.